JP2017059457A - Electric connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To use part of components for each type electric connector and thereby improve versatility, inhibit increase of the number of the components to inhibit increase of the manufacturing costs, and reduce the number of the managed component to simplify the manufacturing processes when different types of electric connectors are manufactured.SOLUTION: An electric connector 1 includes: one sub-housing 40 which is inserted into a holding hole 23 from the rear side while holding parts of terminals 30; and another sub-housing 40 which is inserted into the holding hole 23 from the rear side while holding the other terminals 30 other than the parts of the terminals 30.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electrical connector.

  Conventionally, there are various types of electrical connectors mounted on an electronic device depending on the mounting position of the electrical connector on the electronic device. As such a type, there are a vertical type that is vertical with respect to the substrate, a horizontal type that is horizontal with respect to the substrate (for example, Patent Document 1), and the like.

  In recent years, with respect to electrical connectors mounted on electronic devices, demands for multi-polarization have increased along with the increase in functionality and functionality of electronic devices. Along with this, the terminals provided in the electrical connector are arranged in a plurality of rows.

Japanese Patent Laying-Open No. 2015-5383

  However, in a conventional electrical connector, a housing, a shield member, and a terminal must be prepared for each type of electrical connector, which is not versatile when manufacturing different types of electrical connectors, and the number of parts Increases the manufacturing cost, and there is a problem that the manufacturing process becomes complicated because parts must be managed for each type.

  An object of the present invention is to share a part of each type of parts so that versatility can be increased when manufacturing different types, and an increase in the number of parts is suppressed to suppress an increase in manufacturing cost. It is an object of the present invention to provide an electrical connector capable of simplifying the manufacturing process by reducing the number of components to be managed.

  An electrical connector according to the present invention has an insulating main body including a main body portion having a holding hole that opens rearward, and a plate-like fitting portion that protrudes forward from the main body portion and engages with a mating connector. A housing, a shield member that covers the main housing, an insulating sub-housing provided in the holding hole, a connection portion that is disposed in the fitting portion, and a terminal portion that protrudes from the holding hole. A plurality of conductive terminals held in the sub-housing, and the sub-housing is inserted into the holding hole from the rear while holding some of the plurality of terminals. A first sub-housing and a second terminal inserted into the holding hole from the rear while holding the remaining terminals other than the some of the plurality of terminals. And the sub-housing, consisting of.

  When manufacturing different types of electrical connectors, some terminals held in the first sub-housing and the remaining terminals held in the second sub-housing are changed for each type of electrical connector. However, the shield member and the main housing are shared by each type.

  According to the present invention, by sharing a part of parts for each type, when manufacturing a plurality of different types, it is possible to suppress an increase in the number of parts and suppress an increase in manufacturing cost, and a managed part Thus, the manufacturing process can be simplified.

It is a disassembled perspective view of the vertical installation type electrical connector which concerns on embodiment of this invention. 1 is a front view of a vertically installed electrical connector according to an embodiment of the present invention. It is a rear view of the vertical installation type electrical connector which concerns on embodiment of this invention. It is an AA cross-sectional perspective view of FIG. It is a cross-sectional perspective view equivalent to AA of FIG. 3 of the horizontal installation type electrical connector which concerns on embodiment of this invention.

  Hereinafter, electrical connectors according to embodiments of the present invention will be described in detail with reference to the drawings as appropriate. In the figure, the x-axis, y-axis, and z-axis form a three-axis orthogonal coordinate system, where the positive y-axis direction is the forward direction, the negative y-axis direction is the backward direction, the x-axis direction is the left-right direction, and the z-axis A description will be given assuming that the positive direction is upward and the negative direction of the z-axis is downward.

<Configuration of vertical electrical connector>
The configuration of the vertical electrical connector 1 according to the embodiment of the present invention will be described in detail below with reference to FIGS. 1 to 4. 1 and 4, the illustration of the flange member 60 is omitted.

  The electrical connector 1 is a vertical type that is vertically placed on a substrate (not shown). The vertically placed electrical connector 1 is mounted on a substrate orthogonal to the y-axis direction. The electrical connector 1 includes a shield member 10, a main housing 20, a terminal 30, a sub housing 40, and a shielding plate 50.

  The shield member 10 includes an insertion portion 11 that opens forward and allows insertion of a mating connector (not shown), an opening portion 12 that opens rearward, and a locking piece 13 that is bent inward. . The locking pieces 13 are provided at two locations on the left and right sides of the upper surface of the shield member 10 and at two locations on the left and right sides of the lower surface of the shield member 10. The shield member 10 covers the main housing 20. The locking piece 13 is engaged with the inner wall of the through hole 25 provided in the main body portion 21 of the main housing 20 (see FIG. 4). The shield member 10 is provided with a flange member 60 that is fixed to a substrate (not shown) and connected to the ground (see FIGS. 2 and 3).

  The main housing 20 is formed of an insulating material and is accommodated in the shield member 10. The main housing 20 includes a main body portion 21 and a plate-like fitting portion 22 that protrudes forward from the main body portion 21. The main body 21 is provided with a holding hole 23 that opens rearward and a through hole 25 that penetrates in the thickness direction and communicates the holding hole 23 with the outside. Two through holes 25 are provided on the left and right of the upper surface of the main housing 20, and two are provided on the left and right of the lower surface of the main housing 20. The main housing 20 is provided with an insertion groove 24 that is recessed in the fitting portion 22. The insertion groove 24 extends rearward from the fitting portion 22 and communicates with the holding hole 23 at the rear end.

  The terminal 30 is formed of a conductive material, and a plurality of terminals 30 are provided and held in the sub housing 40. Some terminals 30 of the plurality of terminals 30 are held by the sub-housing 40a, and the remaining terminals 30 of the plurality of terminals 30 are held by the sub-housing 40b.

  The terminal 30 includes a connection part 31 disposed in the insertion groove 24 provided in the fitting part 22 and a terminal part 32 protruding from the holding hole 23. The connection portions 31 of the terminals 30 held by the sub-housing 40 a are arranged at intervals in the left-right direction on the upper surface, which is one surface of the fitting portion 22. The connection portions 31 of the terminals 30 held by the sub-housing 40b are arranged at intervals in the left-right direction on the lower surface, which is the opposite surface of the upper surface of the fitting portion 22. The terminal portion 32 protruding from the sub-housing 40 a protrudes from the sub-housing 40 a in the upward direction that is orthogonal to the longitudinal direction (front-rear direction) of the terminal 30. The terminal portion 32 protruding from the sub housing 40 b protrudes from the sub housing 40 b in a downward direction that is orthogonal to the longitudinal direction of the terminal 30. The terminal 30 held by the sub-housing 40a and the terminal 30 held by the sub-housing 40b have the same configuration.

  The sub-housing 40 includes a sub-housing 40a disposed on the upper side that is the first sub-housing, and a sub-housing 40b disposed on the lower side that is the second sub-housing. The sub housing 40 a and the sub housing 40 b are formed of an insulating material and are provided in the holding hole 23. The sub housing 40 a and the sub housing 40 b hold the terminal 30. The sub housing 40a and the sub housing 40b have the same configuration. The sub-housing 40a and the sub-housing 40b are provided with an engaging protrusion 41 that engages with the inner wall of the through hole 25 provided in the main body portion 21 of the main housing 20 (see FIG. 4).

  The shielding plate 50 is formed of a conductive material and has a plate shape, and is provided in the main housing 20. The shielding plate 50 is provided between the sub-housing 40a and the sub-housing 40b, and the connection portion 31 of the terminal 30 held by the sub-housing 40a and the connection of the terminal 30 held by the sub-housing 40b. And the unit 31.

  The electrical connector 1 having the above configuration includes two unit members: a unit member composed of the sub-housing 40a and the terminal 30 and a unit member composed of the sub-housing 40b and the terminal 30. These two unit members have the same configuration, and are provided in the main housing 20 in a state where the top and bottom are reversed.

<Configuration of horizontal electrical connector>
The configuration of the horizontal electrical connector 2 according to the embodiment of the present invention will be described below in detail with reference to FIG.

  In FIG. 5, parts having the same configuration as in FIGS. 1 to 4 are denoted by the same reference numerals, and description thereof is omitted.

  The electrical connector 2 is a horizontal type that is horizontally placed on a board (not shown). The horizontally placed electrical connector 2 is mounted on a substrate orthogonal to the z-axis direction. The electrical connector 2 includes a shield member 10, a main housing 20, a sub-housing 40, a shielding plate 50, a terminal 70, and a terminal 80.

  The terminal 70 is made of a conductive material and is held by the sub housing 40a. The terminal 70 includes a connection part 71 disposed in the insertion groove 24 provided in the fitting part 22 and a terminal part 72 protruding from the holding hole 23. The connection portions 71 are arranged at intervals in the left-right direction on the upper surface of the fitting portion 22 of the main housing 20. The terminal portion 72 protrudes from the sub-housing 40a to the rear that is parallel to the longitudinal direction (front-rear direction) of the terminal 70.

  The terminal 80 is made of a conductive material and is held by the sub housing 40b. The terminal 80 includes a connection portion 81 disposed in the insertion groove 24 provided in the fitting portion 22 and a terminal portion 82 protruding from the holding hole 23. The connecting portions 81 are arranged on the lower surface of the fitting portion 22 with an interval in the left-right direction. The terminal portion 82 protrudes from the sub-housing 40b to the rear, which is parallel to the longitudinal direction (front-rear direction) of the terminal 80.

  The shielding plate 50 is provided between the sub-housing 40 a and the sub-housing 40 b and between the connection portion 71 of the terminal 70 and the connection portion 81 of the terminal 80.

<Assembly method of vertical type electrical connector>
A method of assembling the vertical electrical connector 1 according to the embodiment of the present invention will be described in detail below.

  First, the shield member 10 is formed by pressing a metal plate. At this time, the locking piece 13 is formed by punching the metal plate and bending it.

  Further, a sub housing 40a that integrally holds the terminal 30 by insert molding and a sub housing 40b that integrally holds the terminal 30 by insert molding are formed. The terminal portion 32 of the terminal 30 held by the sub-housing 40 a is formed by being held integrally with the sub-housing 40 a and then bent in a direction perpendicular to the longitudinal direction of the terminal 30. The terminal portion 32 of the terminal 30 held by the sub-housing 40b is formed by being held integrally with the sub-housing 40b and then bent in a direction perpendicular to the longitudinal direction of the terminal 30.

  Furthermore, the main housing 20 that integrally holds the shielding plate 50 is formed by insert molding.

  After preparing the shield member 10, the sub-housing 40 a holding the terminal 30, the sub-housing 40 b holding the terminal 30, and the main housing 20 holding the shielding plate 50, the shielding member 50 is divided vertically. The sub-housing 40a holding the terminal 30 is inserted from the rear into one of the holding holes 23 (see FIG. 1). At this time, since the holding hole 23 is vertically divided by the shielding plate 50, the sub-housing 40a can be easily inserted while being positioned in the holding hole 23. The sub-housing 40a and the sub-housing 40b have the same configuration, and the terminal 30 held by the sub-housing 40a and the terminal 30 held by the sub-housing 40b have the same configuration, so that they are inserted into the holding holes 23. By eliminating the need to select the terminal 30 and the sub-housing 40, workability can be improved and manufacturing can be easily performed.

  The sub-housing 40a is inserted into the holding hole 23 in a state where the engaging protrusion 41 is in pressure contact with the inner wall of the holding hole 23 of the main body 21 and the shielding plate 50 is elastically deformed.

  The connection portion 31 of the terminal 30 held integrally with the sub-housing 40a moves forward along the insertion groove 24 while being press-fitted into the insertion groove 24.

  When the engagement protrusion 41 of the sub-housing 40a reaches the position of the through hole 25 of the main body, the pressure contact state between the engagement protrusion 41 and the inner wall of the holding hole 23 is released, and the shielding plate 50 Is restored to its original position by its own elastic force, whereby the engaging protrusion 41 is engaged with the inner wall of the through hole 25. The connecting portion 31 is press-fitted and held in the insertion groove 24. As a result, the terminal 30 and the sub-housing 40a are held in the main housing 20.

  Next, the sub-housing 40b holding the terminal 30 is inserted into the other of the holding holes 23 divided vertically by the shielding plate 50 from the rear. At this time, since the holding hole 23 is vertically divided by the shielding plate 50, the sub-housing 40b can be easily inserted while being positioned in the holding hole 23. Further, when the sub housing 40a is about to be lowered before the sub housing 40b is inserted into the holding hole 23, the sub housing 40a is pressed upward by the urging force of the shielding plate 50, so that the sub housing 40b is held in the holding hole. It is possible to prevent the sub-housing 40a from getting in the way when inserted into the housing 23. Further, the sub-housing 40a and the sub-housing 40b have the same configuration, and the terminal 30 held by the sub-housing 40a and the terminal 30 held by the sub-housing 40b have the same configuration, so that they are inserted into the holding holes 23. By eliminating the need to select the terminal 30 and the sub-housing 40, workability can be improved and manufacturing can be easily performed.

  The sub-housing 40 b is inserted into the holding hole 23 while the engaging protrusion 41 is in pressure contact with the inner wall of the holding hole 23 of the main body 21.

  The connection portion 31 of the terminal 30 held integrally with the sub-housing 40b moves forward along the insertion groove 24 while being press-fitted into the insertion groove 24.

  When the engagement protrusion 41 of the sub-housing 40b reaches the position of the through hole 25 of the main body, the pressure contact state between the engagement protrusion 41 and the inner wall of the holding hole 23 is released, and the engagement protrusion 41 engages with the inner wall of the through hole 25. The connecting portion 31 is press-fitted and held in the insertion groove 24. As a result, the terminal 30 and the sub-housing 40b are held in the main housing 20.

  Next, the main housing 20 holding the terminal 30, the sub-housing 40 a and the sub-housing 40 b is inserted into the shield member 10 through the opening 12.

  The main housing 20 is inserted into the shield member 10 with the locking pieces 13 of the shield member 10 elastically deformed outward.

  When the through hole 25 of the main body 21 reaches the position of the locking piece 13 of the shield member 10, the locking piece 13 is engaged with the inner wall of the through hole 25 by the elastic return force of the locking piece 13. Thus, the main housing 20 is held by the shield member 10.

  Finally, the flange member 60 is attached to the shield member 10 as necessary, and the assembly of the electrical connector 1 is completed.

  Although the main housing 20 is held by the shield member 10 after the sub housing 40 is held by the main housing 20, the sub housing 40 is held by the main housing 20 after the main housing 20 is held by the shield member 10. You may let them. Further, although the sub housing 40b is inserted into the holding hole 23 after the sub housing 40a is inserted into the holding hole 23, the sub housing 40a may be inserted into the holding hole 23 after the sub housing 40b is inserted into the holding hole 23.

<Assembling method of horizontal type electrical connector>
The assembly method of the horizontal electrical connector 2 according to the embodiment of the present invention will be described in detail below.

  First, the shield member 10 is formed by pressing a metal plate. At this time, the locking piece 13 is formed by punching the metal plate and bending it.

  Further, the sub-housing 40a that integrally holds the terminal 70 is formed by insert molding. The terminal portion 72 of the terminal 70 is formed by being integrally held in the sub-housing 40a and then bent into a crank shape. Further, the sub-housing 40b that integrally holds the terminal 80 is formed by insert molding. The terminal portion 82 of the terminal 80 is formed by being held integrally with the sub-housing 40b and then bent into a crank shape.

  Furthermore, the main housing 20 that integrally holds the shielding plate 50 is formed by insert molding.

  After preparing the shield member 10, the sub-housing 40 a holding the terminal 70, the sub-housing 40 b holding the terminal 80, and the main housing 20 holding the shielding plate 50, the shielding member 50 is divided vertically. The sub housing 40a holding the terminal 70 is inserted into one of the holding holes 23 from behind. At this time, since the holding hole 23 is vertically divided by the shielding plate 50, the sub-housing 40a can be easily inserted while being positioned in the holding hole 23.

  The sub-housing 40a is inserted into the holding hole 23 in a state where the engaging protrusion 41 is in pressure contact with the inner wall of the holding hole 23 of the main body 21 and the shielding plate 50 is elastically deformed.

  The connection portion 71 of the terminal 70 held integrally with the sub-housing 40a moves forward along the insertion groove 24 while being press-fitted into the insertion groove 24.

  When the engagement protrusion 41 of the sub-housing 40a reaches the position of the through hole 25 of the main body, the pressure contact state between the engagement protrusion 41 and the inner wall of the holding hole 23 is released, and the engagement protrusion 41 engages with the inner wall of the through hole 25. Further, the connecting portion 71 is press-fitted and held in the insertion groove 24. As a result, the terminal 70 and the sub-housing 40a are held in the main housing 20.

  Next, the sub-housing 40b holding the terminal 80 is inserted into the other of the holding holes 23 divided vertically by the shielding plate 50 from the rear. At this time, since the holding hole 23 is vertically divided by the shielding plate 50, the sub-housing 40b can be easily inserted while being positioned in the holding hole 23.

  The sub-housing 40 b is inserted into the holding hole 23 while the engaging protrusion 41 is in pressure contact with the inner wall of the holding hole 23 of the main body 21.

  The connection portion 81 of the terminal 80 held integrally with the sub-housing 40 b moves forward along the insertion groove 24 while being press-fitted into the insertion groove 24.

  When the engagement protrusion 41 of the sub-housing 40b reaches the position of the through hole 25 of the main body, the pressure contact state between the engagement protrusion 41 and the inner wall of the holding hole 23 is released, and the engagement protrusion 41 engages with the inner wall of the through hole 25. The connecting portion 31 is press-fitted and held in the insertion groove 24. As a result, the terminal 80 and the sub-housing 40b are held in the main housing 20.

  Note that the subsequent assembly method is the same as the assembly method of the electrical connector 1, and therefore the description thereof is omitted.

  Thus, according to the present embodiment, the sub-housing 40a inserted into the holding hole 23 from the rear while holding some of the terminals 30 among the terminals 30, and the remaining terminals 30 other than some of the terminals 30. The sub-housing 40b inserted into the holding hole 23 from the rear in a state in which a plurality of types are shared with each other to increase the number of parts when manufacturing a plurality of different types. The increase in manufacturing cost can be suppressed and the number of parts to be managed can be reduced to simplify the manufacturing process.

  Further, according to the present embodiment, the sub-housing 40a holding a part of the terminals 30 has the same configuration as the sub-housing 40b holding the remaining terminals 30, so that some parts further share some parts. Thus, when manufacturing a plurality of different types, it is possible to suppress an increase in the number of components and suppress an increase in manufacturing cost, and it is possible to simplify the manufacturing process by reducing the number of components to be managed.

  In addition, according to the present embodiment, the terminal portions 32 of some terminals 30 protrude from the holding holes 23 in the opposite direction to the protruding direction from the holding holes 23 of the terminal portions 32 of the remaining terminals 30. The vertical connector type electrical connector 1 can be provided.

  Further, according to the present embodiment, some terminals 30 have the same configuration as the remaining terminals 30, so that when inserting the sub-housing 40 a and the sub-housing 40 b into the holding hole 23 of the main housing 20, the terminals It is possible to eliminate the need for sorting 30 and to assemble easily.

  Further, according to the present embodiment, the terminal portion 72 of the terminal 70 protrudes from the holding hole 23 in the same direction as the protruding direction from the holding hole 23 of the terminal portion 82 of the terminal 80, thereby A type of electrical connector 2 can be provided.

  Moreover, according to this embodiment, it further has the plate-shaped shielding board 50 provided in the main housing 20, and the connection part 31 of some terminals 30 was recessedly provided in the one surface of the fitting part 22. FIG. The connection portions 31 of the remaining terminals 30 are arranged in the insertion grooves 24, which are recessed in the opposite surface of the one surface of the fitting portion 22, and the shielding plate 50 is part of the terminals 30. Are provided between the connection part 31 of the terminal 30 and the connection part 31 of the remaining terminal 30, so that a signal flowing in one of the partial terminal 30 and the remaining terminal 30 causes a part of the terminal 30 and the remaining terminal 30. It is possible to prevent noise from occurring in the signal flowing to either one of the 30.

  Further, according to the present embodiment, the main body portion 21 includes the through hole 25 that vertically communicates the holding hole 23 and the outside, and the shield member 10 has the locking piece 13 that engages with the inner wall of the through hole 25. The sub-housing 40 includes an engagement protrusion 41 that engages with the inner wall of the through hole 25, thereby fixing the shield member 10 to the main housing 20 and fixing the sub-housing 40 to the main housing 20. Can be shared, so that the configuration of the main housing 20 can be simplified and manufacturing can be facilitated.

  In the present invention, the type, arrangement, number, and the like of the members are not limited to the above-described embodiments, and the constituent elements thereof are appropriately replaced with those having the same operational effects, and the gist of the invention is not deviated. Of course, it can be appropriately changed within the range.

  Specifically, in the above embodiment, the parts are shared when manufacturing the vertical type and the horizontal type, but when manufacturing an electrical connector of a type other than the vertical type and the horizontal type such as a mid-mount type. You can also share parts.

  Moreover, in the said embodiment, although the shielding board 50 was provided, the shielding board 50 does not need to be provided.

  The present invention is suitable for an electrical connector.

DESCRIPTION OF SYMBOLS 1 Electrical connector 2 Electrical connector 10 Shield member 11 Insertion part 12 Opening part 13 Locking piece 20 Main housing 21 Main body part 22 Fitting part 23 Holding hole 24 Insertion groove 25 Through-hole 30 Terminal 31 Connection part 32 Terminal part 40 Sub housing 40a Sub-housing 40b Sub-housing 41 Engaging projection 50 Shielding plate 60 Flange member 70 Terminal 71 Connection portion 72 Terminal portion 80 Terminal 81 Connection portion 82 Terminal portion

Claims (7)

A main housing having insulation, comprising: a main body provided with a holding hole that opens rearward; and a plate-like fitting portion that protrudes forward from the main body and engages with a mating connector;
A shield member covering the main housing;
An insulating sub-housing provided in the holding hole;
A plurality of terminals having electrical conductivity held in the sub-housing, comprising: a connecting portion disposed in the fitting portion; and a terminal portion protruding from the holding hole;
Have
The sub-housing is
A first sub-housing that is inserted into the holding hole from the rear while holding a part of the plurality of terminals, and the remaining terminals other than the some of the plurality of terminals are held. A second sub-housing inserted into the holding hole from the rear in a state,
An electrical connector characterized by that. The first sub-housing includes
The same configuration as the second sub-housing,
The electrical connector according to claim 1. The terminal portion of the some terminals is
Protruding from the holding hole in a direction opposite to the protruding direction from the holding hole of the terminal portion of the remaining terminal,
The electrical connector according to claim 1 or 2, characterized in that The some terminals are
The same configuration as the remaining terminals,
The electrical connector according to claim 3. The terminal portion of the some terminals is
Projecting from the holding hole in the same direction as the projecting direction from the holding hole of the terminal portion of the remaining terminal,
The electrical connector according to claim 1 or 2, characterized in that It further has a plate-shaped shielding plate provided in the main housing,
The connection part of the some terminals is
Arranged on one surface of the fitting portion,
The connections of the remaining terminals are
Arranged on the opposite surface of the one surface of the fitting portion,
The shielding plate is
Provided between the connection of the some terminals and the connection of the remaining terminals;
The electrical connector according to any one of claims 1 to 5, wherein: The main body is
Provided with a through hole that communicates the holding hole and the outside vertically;
The shield member is
A locking piece that engages with the inner wall of the through hole;
The first sub-housing includes
A first engaging protrusion that engages with the inner wall of the through hole;
The second sub-housing includes
A second engaging protrusion that engages with the inner wall of the through hole;
The electrical connector according to any one of claims 1 to 6, wherein the electrical connector is provided.

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